Analysis of Coagulation Effect in Veins using MEMS Laminar Flow for Early Heart Stroke Detection

In the recent past researchers are working on different designs of biomedical equipment to measure various health parameters. People are more stressed due to their routine lives due to their work environments. Therefore, they suffered with health issue such as heart stroke and so on. This research article designated in the article is to design an electronic model to measure health parameters. Pressure and velocity across the veins are treated as inputs and their respective results as outputs. While veins are expanding and contrasting when pressure and velocity of the blood is varied, this is due to stress and exercise etc. The major parameters in detecting the laminar flow are pressure and velocity. The primary objective is to model a veins in different shapes. Second objective is to analysis of flow measurements pressure and velocity of blood cross it. The third objective is to detect blockages of artery due to fatty and cholesterol containing deposits build up over time. The final objective of the design is to describe the working principal of digital stethoscope and wrist band to measure the health parameter of heart through blood pressure. Digital Stethoscope principle depends on piezoelectric effect, generates electrical signal when pressure is applied from veins of the body. Accuracy, functionality, and Performance of the design can be analyzed using COMSOL Multiphysics. MEMS is used in real time applications to alert heart stroke, Bionic eye and automotive electronics etc.